JP2004504857A - Tractor harrow - Google Patents

Abstract

With a simple structure, the price of the product and the cost of distribution can be saved, but the angle of inclination of the harrow board with respect to the ground can be freely adjusted to perform the flattening work efficiently, A tractor harrow that will not be easily damaged even if the harrow plate is overloaded during work or if the harrow plate hits an obstacle such as a rice field by carelessness. A plurality of connecting rods (10) hingedly connected to a rotor batter (2) on the rear side of the tractor and rotatably ascending and descending; A connecting arm (22) protruding above the slab (20) and a hinge attached to the upper end of the connecting arm (22) of the harrow plate (20) mounted on the rotor batter (2); Consists of a combined lifting cylinder (50). The hinge shaft (22a) connecting the harrow plate (20) and the elevating cylinder (50) is directed upward with respect to the hinge shaft (23a) connecting the harrow plate (20) and the connecting rod (10). The harrow plate (20) is lowered to the ground side when the lifting cylinder (50) is extended while it is lifted upward, and continues even after the harrow plate (20) comes into contact with the ground. When the lifting cylinder (50) is extended, its inclination angle with respect to the ground can be adjusted.

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to harrows for tractors, and more particularly, to the freedom of adjusting the angle of inclination of the harrow plate with respect to the ground, despite its simple construction and reduced product costs and distribution costs. Therefore, it is possible to perform the flattening work efficiently, even if an excessive load acts on the harrow plate during the work, or if the harrow plate accidentally hits an obstacle such as the shore of the rice field, The present invention relates to a tractor harrow having a novel structure that is not easily damaged.
[0002]
[Prior art]
Conventional tractor harrows usually consist of a single harrow plate designed to have a predetermined width in consideration of the mobility of the tractor and the like. When using this to flatten paddy fields, the width of work at a time is narrow, so not only is the work efficiency low, but also the tractor's running trace can be relatively increased, and that part is There is a problem that effective flattening work cannot be performed, for example, the height is lower than the surrounding area.
[0003]
Therefore, in recent years, a folding harrow board has been developed that installs a pair of outer harrow boards that can be rotated and folded at both ends of the central harrow board so that a large area of paddy fields can be flattened at once. ,It is used.
[0004]
FIG. 1 is a perspective view of a conventional folding tractor harrow. As shown in this figure, the conventional tractor harrow has a horizontal axis (3) at the upper part of a rotor batter (2) at the rear of the tractor, and a central part of the horizontal axis (3) has a predetermined length. An upwardly extending cylinder mounting bracket (4) is provided, and an elevating cylinder (50) is attached to the upper end thereof by a hinge connection, and a square frame (90) is connected to the elevating cylinder (50) on both sides thereof to rotate. It is also hinged so that it can be raised and lowered. Further, a central harrow plate (81) is connected to a lower portion of a rear end of the frame (90) by pins (98), and a pair of outer harrow plates (85) are provided at both ends of the central harrow plate (81). ) Are hinged so that they can be rotationally folded forward.
[0005]
However, since the harrow plate (80) is connected to the frame (90) by pins (98) extending forward and backward, the harrow for a tractor has a left and right end. Can swing up and down around the pin (98) along the bend of the paddy field. However, since the angle of inclination of the blade portion of the harrow plate (80) with respect to the ground is always fixed, the paddy field It is difficult to appropriately adjust the angle of the harrow plate (80) in accordance with the hardness and the bending state of the harrow, and there is a drawback that efficient flattening work cannot be performed.
[0006]
Further, since such a harrow plate (80) is relatively wider than a single harrow plate, the harrow plate (80) is set up at a large angle with respect to the ground, and a large amount of soil is formed at one time. When the soil is removed, the overload may be applied to cause bending and damage. In addition, when the harrow board (80) lays on the ground and performs the flattening work of the paddy field, when the harrow board (80) hits an obstacle such as the shore of the rice field by carelessness of the worker, The harrow plate (80) is forcibly pulled by the tractor and there is a high risk of being damaged.
[0007]
Moreover, the tractor harrow is constructed by welding a frame (90) and a center harrow plate (81) one by one so as to be substantially square with vertical and horizontal pipes, and the frame (90) and the center harrow are formed. In order to swingably connect the plate (81) to each other, a pin (98) connecting portion must be provided at the center, and there is a problem that the manufacturing and assembling require many steps. Further, since the frame (90) and the central harrow plate (81) are bulky and heavy, it is difficult to deliver them by comprehensive transportation such as a courier service or a packing delivery service company. Alternatively, there is a problem that the cost of transportation is high because the consumer has to transport the vehicle directly by vehicle. Moreover, such harrows are usually delivered to farmers located in remote areas, so the burden of distribution costs is even greater.
[0008]
On the other hand, in the harrow for tractors described above, since the distance between the front wheel (1) of the tractor and the harrow plate (80) is long, the harrow plate (80) is required to flatten the corners of the paddy field. After turning the tractor while lifting it upwards, the harrow plate (80) must be further lowered into the paddy field to continue the work.
[0009]
However, such harrows for tractors tend to lift the harrow plate (80) slightly, instead of raising it high, in order to improve the work efficiency when turning, and in this case, the ground is not flat. There is a possibility that the left and right ends of the harrow plate (80) swing up and down when passing through, and one side end of the harrow plate (80) is damaged by being cut into a paddy field.
[0010]
[Problems to be solved by the invention]
The present invention has been made to solve the above-mentioned various problems associated with the conventional tractor harrow, and the object thereof is to have a simple structure, and to reduce the price of the product and the cost of distribution. Despite the savings, the angle of inclination of the harrow to the ground can be freely adjusted, and the flattening work can be performed efficiently, and an excessive load acts on the harrow during the work. It is another object of the present invention to provide a tractor harrow having a novel structure that prevents a harrow plate from being easily damaged even if it hits an obstacle such as a shore of a rice field due to carelessness.
[0011]
[Means for Solving the Problems]
A first aspect of the present invention for achieving the above object is a plurality of connecting rods (10) hingedly connected to a rotor beta (2) on the rear side of the tractor and capable of rotating and ascending and descending. A harrow plate (20) hinged to the rear end of the wing rod (10) to move up and down, a connecting arm (22) protruding from the top of the harrow plate (20), and a rotor beta (2) ) Comprises a lifting cylinder (50) hinged to the upper end of the connecting arm (22) of the harrow plate (20), connecting the harrow plate (20) and the lifting cylinder (50). The hinge shaft (22a) is arranged so as to be located above the hinge shaft (23a) connecting the harrow plate (20) and the connecting rod (10). The harrow plate (20) descends to the ground side when the elevating cylinder (50) is extended in a state where it is lifted upward, and is further moved after the harrow plate (20) comes into contact with the ground. The harrow for a tractor is characterized in that the angle of inclination of the blade portion of the harrow plate (20) with respect to the ground is increased by extending the harrow plate (20).
[0012]
DETAILED DESCRIPTION OF THE INVENTION
A second aspect of the present invention is that the harrow plate (20) abuts the connecting rod as it rotates and limits the upper and lower stoppers (24) that limit the rotation angle of the harrow plate (20). , 25) for tractors.
[0013]
According to a third aspect of the present invention, the harrow plate (20) has a center harrow plate (21) connected to a lifting cylinder (50) and a pair of harrow plates (21) arranged on both sides of the center harrow plate (21). The center harrow plate (21) and the outer harrow plate (27) are rotated by a connecting rod (70) having a pair of hinge shafts (71a, 77a) at both ends. The hinge shafts (71a, 77a) are arranged at an angle crossing each other when viewed from the side, and are connected to a connecting portion between the center harrow plate (21) and the outer harrow plate (27). Is a tractor harrow further provided with a safety member (73) which is destroyed when an overload acts on the outer harrow plate (27).
[0014]
A fourth aspect of the present invention is a pair of safety plates (74) in which the safety member (73) is fixed by safety bolts (75) penetrating the outer harrow plate (27) and the connecting rod (70). And one end of the safety plate (74) is in contact with both ends of the central harrow plate (21), and the safety plate (74) or the safety bolt (75) is relatively opposed to the harrow plate (20). It is a harrow for tractors that is weakly formed.
[0015]
A fifth aspect of the present invention is a harrow plate (20, 30) having a main harrow plate (20) hinged to a connecting rod (10), and hinges at both ends of the main harrow plate (20). The auxiliary harrow plate (30) is connected to the main harrow plate (20) by a spring (40). A harrow for a tractor configured to be deployed on both sides of the main harrow plate (20) or to overlap the main harrow plate (20) by a restoring force.
[0016]
Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.
[0017]
【Example】
2 to 7 are a front view, a side view and a rear view, respectively, showing one embodiment of a tractor harrow according to the present invention. As seen from these figures, the harrow for a tractor of the present invention has a harrow plate (20, 30) connected to a rotor beta by a pair of connecting rods (10) and a lifting cylinder (50). As shown in FIG. 5, the harrow plate (20, 30) is lifted from the ground by the expansion and contraction of the lifting cylinder (50), and after the harrow plate (20, 30) comes into contact with the ground, the lifting cylinder (20) The angle of inclination of the harrow plate (20, 30) with respect to the ground can be adjusted by the expansion and contraction of (50).
[0018]
Further, as shown in FIG. 2, the harrow plates (20, 30) have a central harrow plate (21) hinged to the connecting rod (10), and front ends at both ends of the central harrow plate (21). A pair of outer harrow plates (27) hinged to be foldable at the top, and a pair of hinged hinged upper rear portions to the outer ends of the outer harrow plates (27); It comprises an auxiliary harrow plate (30). As shown in FIGS. 6 and 7, a connecting rod (70) and a safety member (73) are provided between the center harrow plate (21) and the pair of outer harrow plates (27), respectively. Protecting the harrow board (20, 30) by cutting the safety member (73) when an excessive load is applied, regardless of the inclination angle of the hoop (20, 30) with respect to the ground. As shown in FIG. 2, the auxiliary harrow plate (30) and the outer harrow plate (27) are connected by a spring (40) so that the auxiliary harrow plate (30) is The auxiliary harrow plate (30) is folded so that the harrow plate (20, 30) can be protected when it hits an obstacle such as a rice field.
[0019]
A horizontal axis (3) is provided at the upper part of the rotor beta (2), and a cylinder mounting bracket extending a predetermined length upward is provided at the center of the horizontal axis (3), and a lifting cylinder (50) is provided at the upper end thereof. Are hinged to each other, and a pair of connecting rods (10) are hinged to both sides thereof so as to be rotatable up and down. Further, at the rear end of the connecting rod (10), harrow plates (20, 30) connected to a lifting cylinder (50) are hinged so as to be rotatable up and down.
[0020]
As already mentioned, the main harrow plate (20) of the present invention is composed of a center harrow plate (21) and an outer harrow plate (27), and on both sides of the center harrow plate (21), A pair of outer harrow plates (27) are hinged to the front upper part so as to be foldable, and an auxiliary end elastically supported by a spring (40) is provided at the outer end of the outer harrow plate (27). A harrow plate (30) is installed to be foldable at the upper rear part.
[0021]
At the center of the upper surface of the center harrow plate (21), a connecting arm (22) connected to the lift cylinder (50) is formed to protrude upward by a predetermined length, and on both sides thereof, connecting rods are formed. (10) A pair of brackets (23) hinged so as to be rotatable up and down is formed at a rear end portion of the rear end portion so as to protrude a predetermined length upward and forward. Here, as shown in FIG. 3, a pair of upper and lower stoppers (24, 25) are provided at upper and lower ends of the bracket (23) at predetermined positions apart from the connecting rod (10). The harrow plate (20, 30) can be laid or laid up by the lifting cylinder (50) until the connecting rod (10) hits the upper and lower stoppers (24, 25). .
[0022]
As shown in FIGS. 6 and 7, a first hinge portion (71) is provided at both ends of the central harrow plate (21), and the connecting rod (70) is connected to the hinge shaft (71a). The hoop piece (21a, 27a) is rotatable around the circumference thereof, and the connecting rod (70) is connected to the outer harrow plate (27).
[0023]
The connecting rod (70) is a substantially square pipe, rotatably connecting the central harrow plate (21) and the pair of outer harrow plates (27), and the inner end of the connecting rod (70). , Connected to the first hinge portion (71) of the central harrow plate (21), allowing the outer harrow plate (27) to rotate in the direction of extension of the harrow pieces (21a, 27a); On the other hand, the second hinge portion (77) located at the outer end of the connecting rod (70) has a structure in which the outer harrow plate (27) is substantially perpendicular to the direction in which the harrow pieces (21a, 27a) extend. It is possible to rotate. A through hole (70a) is formed in the center of the connecting rod (70) so that a safety bolt (75) for fixing the safety plate (74) is fixed through the through hole (70a). Is configured.
[0024]
The outer harrow plate (27) is approximately 90 forwards at both ends of the central harrow plate (21). ^o A pair of brackets (78a, 78b) are provided on the upper surface of the bracket so as to extend upward. The connecting rod (70) is attached to the brackets (78a, 78b). ) Are pinned to form a second hinge portion (77). At the inner end of the outer harrow plate (27), a safety member (73) is provided to abut against both ends of the central harrow plate (21), and the outer harrow plate (27) is maintained in a deployed state. It is configured to be able to. As described above, the first hinge part (71) and the second hinge part (77) are formed at angles at which their rotation axes intersect each other when viewed from the side, and the outer harrow plate (27) Regardless of the angle of inclination with respect to the ground, the angle can be varied as long as it can be rotated backwards in the direction. The first hinge part (71) and the second hinge part (77) may be variously embodied, as long as they can be rotatably connected, such as hinge shaft connection, pin connection, or bolt connection. .
[0025]
The safety member (73) is fixed to the connecting rod (70) and the outer harrow plate (27), and a safety plate (74) abutting on both ends of the central harrow plate (21), and the connecting rod (70). And a safety bolt (75) for passing through the through holes (70a, 27a) of the outer harrow plate (27) and fixing the safety plate (74). The safety plate (74) or the safety bolt (75) is formed of a material that is relatively brittle compared to the harrow plates (20, 30). At both ends of the central harrow plate (21), stoppers (26) extending outward at a predetermined length are provided so that the safety plate (74) is located in front of the stopper (26). Of the pair of brackets (78a, 78b) constituting the second hinge portion (77) of the plate (27), a through hole (27a) is provided in the bracket (78a) located at the rear, and the through hole (27a) is provided. ) Through which the safety bolt (75) passes. Further, the safety plate (74) is connected to both ends of the central harrow plate (21) by a chain (79) so as to prevent the safety bolt (75) from falling into a paddy field even if the safety bolt (75) is cut. I do.
[0026]
In addition to the combination of the safety plate (74) and the safety bolt (75), the safety member (73) has an oversized harrow plate (20, 30), for example, forming a weak portion on the safety pin or the safety plate itself. Anything that can be cut before it is damaged by the load can be used.
[0027]
As shown in FIGS. 2 to 4, the auxiliary harrow plate (30) is hinged to both ends of the outer harrow plate (27) and is rotatable rearward and upward. Brackets (29, 32) extending upward by a predetermined length are provided on the upper surfaces of the harrow plate (27) and the auxiliary harrow plate (30), and the brackets (29, 32) are provided with hinge connection portions (33). By being formed, the auxiliary harrow plate (30) is unfolded and extended to the outside of the outer harrow plate (27), or is rotated to the upper rear part around the hinge connection part (33) to thereby provide the outer hoop. It is constituted so that it may be folded on the wooden board (27).
[0028]
The springs (40) are connected and installed on respective brackets (29, 32) formed in front of the outer harrow plate (27) and the auxiliary harrow plate (30). The auxiliary harrow plate (30), which is located at the lower front portion, is pulled down toward the lower front portion, so that the auxiliary harrow plate (30) is maintained in the deployed state. Also, the distance between the pair of brackets (29, 32) to which the spring (40) is connected is approximately 90 degrees at the rear upper part of the auxiliary harrow plate (30). ^o Until the rotation, the auxiliary harrow plate (30) gradually moves away as it is folded. ^o The auxiliary harrow plate (30) approaches as it is folded until it rotates and completely overlaps the upper surface of the outer harrow plate (27). Therefore, the spring (40) can maintain the expanded state or the folded state of the auxiliary harrow plate (30) as it is.
[0029]
Here, the harrow plate (20, 30) is configured by fixing a plurality of harrow pieces (21a, 27a, 30a) to a substantially rectangular pipe (21b, 27b, 30b) at a predetermined interval. . The harrow pieces (27a, 30a) attached to the outer harrow plate (27) and the auxiliary harrow plate (30) have their surfaces in contact with the ground slightly lifted toward the center of the harrow plates (20, 30). So that the soil and water, which are formed by being inclined at a predetermined angle and are pulled and moved by the harrow plates (20, 30), gather on the center side without separating from both sides of the harrow plates (20, 30). In this way, when the harrow board (20, 30) passes through a relatively low area, the harrow board (20, 30) can be filled and effectively flattened. A predetermined gap is formed between each harrow piece (27a, 30a), and the gap prevents an excessive amount of soil and water from being pulled by the harrow plate (20, 30). I'm preventing. Each of the harrow pieces (21a) of the center harrow plate (21) is configured to incline forward at the end that comes into contact with the ground. I have.
[0030]
On the other hand, the inner ends of the pair of outer harrow plates (27) are provided with a rotating bracket (28) extending at a predetermined length in the direction facing each other, and the inner end of the rotating bracket (28) and the lifting cylinder (50) are provided. A support rod (60), which is elastically supported by a spring (63) and expands and contracts, is connected between the center and the center of the outer hoop (20, 30) when the harrow plates (20, 30) are raised. It is configured such that the lamina (27) is folded forward. The support rod (60) slidably inserts a rod (65) of a predetermined length into the pipe (61), and inserts the rod (65) between the rod (65) and the pipe (61). A spring (63) elastically supported in the extension direction is interposed. Accordingly, when the lift cylinder (50) is contracted and the harrow plate (20, 30) is lifted upward, the harrow plate (20, 30) is pulled toward the lift cylinder (50), whereas the support rod ( The rotating bracket (28) of the outer harrow plate (27) elastically supported by (60) is pushed relatively rearward from the center harrow plate (21) while the tip of the outer harrow plate (27) is pressed. The part is folded over the front upper part of the central harrow plate (21).
[0031]
In addition, the support rod (60) is attached to the ground at the rear end of the harrow plate (20, 30) by a spring (63) installed between the pipe (61) and the rod (65). The pressing also has a function of preventing the harrow plate (20, 30) from vibrating up and down along the bending of the ground.
[0032]
The tractor harrow having the above-described structure is configured such that when the lifting cylinder (50) is contracted to lift the tractor harrow plate (20, 30), the harrow plate (20, 30) is initially connected with a connecting rod. It lies at a predetermined angle with respect to the ground centering on the hinge joint (23) with the (10), but is lifted from the ground when the upper stopper (24) comes into contact with the upper surface of the connecting rod (10). Become like Therefore, when the harrow plates (20, 30) are lifted upward, the upper stoppers (25) of the harrow plates (20, 30) abut against the connecting rods (10) on both sides to stably support. Therefore, even when the tractor changes direction, the harrow plate (20, 30) does not rotate downward on either side, and the connecting rod (10) stably lifts the harrow plate. maintain.
[0033]
Conversely, when the lift cylinder (50) is extended with the harrow plates (20, 30) lifted, the harrow plates (20, 30) descend and come into contact with the ground of the paddy field, and subsequently rise and fall. When the cylinder (50) is extended, the harrow plates (20, 30) are set up at a predetermined angle with respect to the ground centering on the hinge connection part (23) with the connecting rod (10), and the situation of the paddy field is improved. The flattening operation can be efficiently performed while arbitrarily adjusting the inclination angle of the harrow plate (20, 30) accordingly.
[0034]
Next, when the elevating cylinder (50) is further extended, the lower stopper (24) of the harrow plate (20, 30) comes into contact with the bottom surface of the connecting rod (10), and as the elevating cylinder (50) is extended, Harrow boards (20, 30) can sink into the paddy field, collecting a relatively large amount of soil at once and filling low areas.
[0035]
According to such a process, when the elevating cylinder (50) is contracted, the harrow plate (20, 30) is pulled toward the elevating cylinder (50) when the elevating cylinder (50) is contracted. ), The rotating bracket (28) of the outer harrow plate (27) is pushed relatively rearward from the central harrow plate (21), and together with the outer harrow plate (27). The tip will be folded over the front upper part of the central harrow plate (21). Conversely, when the lifting cylinder (50) is extended and the harrow plates (20, 30) are lowered, the outer harrow plate (27) is deployed by its own weight.
[0036]
On the other hand, in the process of flattening a paddy field with the harrow plate (20, 30) lying relatively to the ground, as shown in FIG. When the outer harrow plate (27) collides with an obstacle or an overload acts, the outer harrow plate (27) and the connecting rod (70) are simultaneously brought into contact with the first hinge portions (2) at both ends of the center harrow plate (21). 71), and rotates backward as viewed from the traveling direction. On the other hand, the safety plate (74) comes into contact with the stoppers (26) at both ends of the central harrow plate (21) and does not rotate backward, so that the safety plate (74) is far from the outer harrow plate (27). The safety bolt (75) connecting these components is pulled, and the safety bolt (75) is finally cut by the tensile force at that time, thereby preventing the harrow plates (20, 30) from being damaged.
[0037]
In the above-described tractor harrow, the outer harrow plate (27) may hit an obstacle, When a load is applied, as shown in FIG. 6, only the outer harrow plate (27) rotates around the second hinge portion (77) backward as viewed from the traveling direction, while rotating the outer harrow plate (27). 27) passes through the rear bracket (78a) and cuts the safety bolt (75) connected to the connecting rod (70), thus preventing the harrow plate (20, 30) from being damaged. . Depending on the angle of the harrow plates (20, 30), the outer harrow plate (27) rotates backward as viewed from the traveling direction due to the simultaneous action of the first hinge portion (71) and the second hinge portion (77). In some cases, the pulling force and the shearing force act on the safety bolt (75) at the same time to cut the same, thereby protecting the harrow plates (20, 30).
[0038]
In addition, this tractor harrow has a structure in which it is attached to a rotor beta by a pair of connecting rods (10), and the structure is very simple. Can be significantly reduced. In particular, this harrow does not have the bulky and heavy components like the frame found in conventional products, so it can be sent via a package delivery service, etc., and needs to be transported directly to remote farmers individually. There is an advantage that the cost of distribution can be reduced because there is no distribution.
[0039]
In addition, in the tractor harrow, one of the side ends of the harrow plate (20, 30) hits an obstacle such as the shore of a rice field due to carelessness of a worker during flattening work of the paddy field. However, the auxiliary harrow plate (30) located at the outer end of the auxiliary harrow plate (30) can be folded by rotating upward and rearward around the hinge joint (33) by overcoming the elastic force of the spring (40). In this way, the harrow plate (20, 30) itself can be prevented from being bent and damaged due to carelessness during the operation as in the prior art, so that the life of the product is prolonged and the operation is interrupted. There is an advantage that there is no.
[0040]
【The invention's effect】
As described above, when the harrow for a tractor of the present invention is used, the harrow plate (20, 30) is lifted above the ground by the expansion and contraction of the elevating cylinder (50). Since the inclination angle is adjusted, the angle of the harrow plate (20, 30) can be appropriately adjusted depending on the situation of the paddy field, and the flattening operation of the paddy field can be performed efficiently.
[0041]
In addition, this tractor harrow is connected to the rotor beta by a pair of connecting rods (10), its structure is extremely simple, the price of the product can be reduced, and the cost of distribution is greatly increased. Can save. In the tractor harrow of the present invention, one of the side ends of the harrow plate (20, 30) may be subjected to an excessive load acting on the harrow plate (20, 30) or carelessly during operation. Even if it hits an obstacle such as the shore of a rice field, the safety bolt (75) is cut off, or the auxiliary harrow plate (30) overcomes the elastic force of the spring (40) and rotates upward and backward. Since the harrow plate (20, 30) itself can be prevented from bending and being damaged due to being folded, there is an advantage that the life of the product is long and there is no interruption of work. is there.
[Brief description of the drawings]
FIG. 1 is a perspective view of a conventional tractor harrow.
FIG. 2 is a front view showing one embodiment of a tractor harrow according to the present invention.
FIG. 3 is a side view of the embodiment of FIG. 2;
FIG. 4 is a side view of the embodiment of FIG. 2;
FIG. 5 is also a side view of the embodiment of FIG. 2;
FIG. 6 is a front view of the embodiment of FIG. 2 when an overload acts on the harrow plate in a lying state.
FIG. 7 is a rear view of the embodiment of FIG. 2 when an overload acts on the harrow plate in a standing state.
[Explanation of symbols]
1 Front wheel of tractor 2 Rotor beta 3 Horizontal axis
4 Cylinder mounting bracket
10 Connecting rod
20 (main) harrow board 21 central harrow board 21a harrow piece
22 Connecting arm 22a Hinge shaft 23 Bracket
23a hinge shaft 21b, 27b, 30b square pipe
24 Upper stopper 25 Lower stopper 26 Stopper
27 Outside harrow plate 27a Through hole
28 Rotating bracket 29 Bracket
30 (Auxiliary) Harrow Plate 30a Harrow Piece 32 Bracket
33 Hinge joint
40 spring
50 lifting cylinder
60 Support rod 61 Pipe 63 Spring 65 Rod
70 Connecting Rod 70a Through Hole 71 First Hinge 71a Hinge Shaft
73 Safety member 74 Safety plate 75 Safety bolt
77 Second hinge part 77a Hinge shaft 78a, 78b Bracket
79 chain
80 harrow board 81 center harrow board 85 outer harrow board
90 frames 98 pins

Claims (5)

A plurality of connecting rods (10) hinged to the rotor beta (2) on the rear side of the tractor and capable of ascending and descending, and a harrow hinged to the rear end of the connecting rod (10) to swing up and down. A connecting arm (22) protruding above the harrow plate (20), and a connecting arm (22) of the harrow plate (20) mounted on the upper part of the rotor beta (2); ) A lifting cylinder (50) hinged to an upper end portion, and a hinge shaft (22a) connecting the harrow plate (20) and the lifting cylinder (50) is connected to the harrow plate (20) and the connecting rod ( 10), and the harrow plate (20) is lifted in a state where it is lifted upward with respect to the hinge shaft (23a) connecting the hanger plate (23a). When the cylinder (50) is extended, it descends toward the ground, and even after the harrow plate (20) comes into contact with the ground, the elevating cylinder (50) is further extended, so that the blade portion of the harrow plate (20) is extended. A harrow for tractors, characterized in that the inclination angle with respect to the ground is increased. 2. The harrow plate (20) is provided with upper and lower stoppers (24, 25) that abut against a connecting rod when it rotates to limit the rotation angle of the harrow plate (20). Harrow for tractors. A harrow plate (20) has a central harrow plate (21) connected to a lifting cylinder (50), and a pair of outer harrow plates (27) arranged on both sides of the central harrow plate (21). The central harrow plate (21) and the outer harrow plate (27) are rotatably connected by connecting rods (70) having a pair of hinge shafts (71a, 77a) at both ends. The shafts (71a, 77a) are arranged at angles crossing each other when viewed from the side, and the connecting portion between the central harrow plate (21) and the outer harrow plate (27) has an outer harrow plate (27). 2. The harrow for a tractor according to claim 1, further comprising a safety member (73) that is destroyed when an overload is applied to the hedge. The safety member (73) penetrates through a pair of safety plates (74) whose ends are on both ends of the central harrow plate (21), the outer harrow plate (27) and the connecting rod (70). A harrow for a tractor according to claim 3, comprising a safety bolt (75) for fixing the plate (74), wherein the safety bolt (75) is formed relatively weaker than the harrow plate (20). A main harrow plate (20) hinged to a connecting rod (10) and a pair of auxiliary harrow plates hinged to both ends of the main harrow plate (20). The auxiliary harrow plate (30) is connected to the main harrow plate (20) by a spring (40), and the main harrow plate is resiliently restored by the spring (40). The harrow for a tractor according to claim 1, wherein the harrow for a tractor is configured to be deployed on both sides of the (20) or to overlap with the main harrow plate (20).

Images